Version management automation and consistent application builds for different target systems

ABSTRACT

Techniques are disclosed relating to database techniques for storing metadata for web applications. In some embodiments, a server computer system may operate a platform for executing one or more application modules that utilize one or more application components to implement an application. The server computer system may generate a first set of values indicative of versions of a first set of application modules specified by an application package stored on the server computer system for implementing the application. The server computer system may determine a second set of values indicative of versions of a second set of application modules specified by an updated application package for an upgrade of the application. The server computer system disables application components associated with application modules specified in the first, but not the second, set of values.

BACKGROUND Technical Field

Embodiments described herein are related to the field of web-basedcomputing systems, and more particularly to the implementation ofapplication upgrades and version management.

Description of the Related Art

Cloud application development platforms, such as the Force.commultitenant architecture, may allow individual enterprises and softwareas a service (SaaS) vendors to develop robust, reliable, andInternet-scale applications. Web applications may access various typesof data, e.g., by accessing a database and processing accessedinformation. Some applications may be targeted for differentarchitectures or platforms. Providing consistent operation of suchapplications across various platforms may be desirable to achievecustomer satisfaction. Similarly, a customer's satisfaction may bemaintained or increased by providing a smooth upgrade experience from acurrently installed version of an application to an upgraded version.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a block diagram of an embodiment of an application packageinstalled on a computer system.

FIG. 2 depicts a block diagram of an embodiment of an applicationpackage and an upgrade to the application package.

FIG. 3 illustrates three tables used in an embodiment of a versionmanagement process.

FIG. 4 shows a flow diagram of an embodiment of a method for managingversion control.

FIG. 5 depicts a flow diagram of an embodiment of a method for disablingapplication components.

FIG. 6 illustrates a block diagram of an application package build formultiple execution engines.

FIG. 7 depicts a flow diagram of an embodiment of a method for buildingan application package.

FIG. 8 shows a block diagram of an embodiment of a multitenant databasesystem

This specification includes references to various embodiments, toindicate that the present disclosure is not intended to refer to oneparticular implementation, but rather a range of embodiments that fallwithin the spirit of the present disclosure, including the appendedclaims. Particular features, structures, or characteristics may becombined in any suitable manner consistent with this disclosure.

Within this disclosure, different entities (which may variously bereferred to as “units,” “circuits,” other components, etc.) may bedescribed or claimed as “configured” to perform one or more tasks oroperations. This formulation—[entity] configured to [perform one or moretasks]—sed herein to refer to structure (i.e., something physical, suchas an electronic circuit). More specifically, this formulation is usedto indicate that this structure is arranged to perform the one or moretasks during operation. A structure can be said to be “configured to”perform some task even if the structure is not currently being operated.A “processing element configured to store manageable state information”is intended to cover, for example, an element that performs thisfunction during operation, even if the circuit in question is notcurrently being used (e.g., power is not connected to it). Thus, anentity described or recited as “configured to” perform some task refersto something physical, such as a device, circuit, memory storing programinstructions executable to implement the task, etc. This phrase is notused herein to refer to something intangible.

The term “configured to” is not intended to mean “configurable to.” Anunprogrammed FPGA, for example, would not be considered to be“configured to” perform some specific function, although it may be“configurable to” perform that function. After appropriate programming,the FPGA may then be configured to perform that function.

Reciting in the appended claims that a structure is “configured to”perform one or more tasks is expressly intended not to invoke 35 U.S.C.§ 112(f) for that claim element. Accordingly, none of the claims in thisapplication as filed are intended to be interpreted as havingmeans-plus-function elements. Should Applicant wish to invoke Section112(f) during prosecution, it will recite claim elements using the“means for” [performing a function] construct.

As used herein, the term “based on” is used to describe one or morefactors that affect a determination. This term does not foreclose thepossibility that additional factors may affect the determination. Thatis, a determination may be solely based on specified factors or based onthe specified factors as well as other, unspecified factors. Considerthe phrase “determine A based on B.” This phrase specifies that B is afactor is used to determine A or that affects the determination of A.This phrase does not foreclose that the determination of A may also bebased on some other factor, such as C. This phrase is also intended tocover an embodiment in which A is determined based solely on B. As usedherein, the phrase “based on” is synonymous with the phrase “based atleast in part on.”

DETAILED DESCRIPTION

Computer applications, whether web-based, cloud computing, or locallyinstalled, may be upgraded one or more times to newer versions. Suchupgrades may, for example, add features, improve performance, or fixbugs in the newer version. A user's experience while installing anupgrade to a previously installed application may impact the user'sdecision to purchase or subscribe to future products from theapplication's developer. The developer, as well as the developmentplatform, may determine how smoothly an upgrade process may beimplemented. A smooth upgrade experience may require little to no efforton behalf of the user to install the upgrade package and continue use ofthe application. In contrast, a poor upgrade experience may includerequiring the user to know version information for currently installedapplications, result in lost features or obfuscate access to previouslyavailable features, or otherwise disrupt the workflow of the user in anunacceptable manner. In various embodiments described herein, disclosedtechniques may enable an application developer to develop a smoothupgrade process for web applications and application packages.

A block diagram of a computer system is shown in FIG. 1. Applicationpackage 102 is installed on server computer system 101 in theillustrated embodiment. Application package 102 includes four modules,application modules 103-106. The four modules utilize components110-116.

Server computer system 101 may correspond to any suitable type ofcomputer system onto which applications may be installed. In theillustrated embodiment, server computer system 101 corresponds to anInternet connected system of one or more server computers capable ofhosting cloud-based application development and execution platforms,such as, for example, the Force.com multitenant architecture. Asubscriber to services hosted by server computer system 101 may installand execute application package 102. In some embodiments, installationof application package 102 may include storage of program instructions,data, and metadata related to application package 102 onto a computersystem local to the subscriber. In the illustrated embodiment, theinstallation process may include storage of program instructions, data,and metadata related to application package 102 into a program spaceallocated to the subscriber and maintained as a part of server computersystem 101.

Application package 102, in the illustrated embodiment, corresponds toone or more files that include program instructions, data, or metadataassociated with one or more applications. As used herein, an“application package,” or simply a “package” is a metadata object thatreferences a set of metadata objects used in an application. A “package”may include a collection of metadata components. A package can alsoinclude computer code (e.g., Apex, JavaScript, etc. or formulas) andfiles (e.g., Word documents or other file types). In some embodiments, adeveloper can precisely define a metadata “package” which includes allsetup data (e.g., custom object definitions, page layout definitions,workflow rules, etc.) that make up an application.

An application package may specify one or more application modules. Asshown, application package 102 specifies application modules 103-106.Application modules 103-106 may correspond to applications or respectiveportions of an application included in application package 102. In oneembodiment, for example, application module 103 may include computerinstructions that implement a user interface, while application module104 includes computer instructions for retrieving and storing data.Furthermore, application module 105 may include computer instructionsfor manipulating retrieved data, and application module 106 may includecomputer instructions for performing various searching algorithms ondata. By subdividing an application into such a modular structure, adeveloper may be able to maintain and revise each application module103-106 independently. Application modules 103-106 utilize applicationcomponents 110-116. In the illustrated embodiment, applicationcomponents 110-116 correspond to information used by application modules103-106 to perform their respective tasks, and may include files, data,templates, metadata, and the like. For example, application module 104may utilize application component 115 to format a display of data readfrom server computer system 101. Some components 110-106, as illustratedin FIG. 1, may be utilized by more than one application module 103-106.In some embodiments, one or more of application components 110-116 maybe generated by a subscriber of application package 102 rather than anapplication developer. For example, the subscriber may modify a defaultuser interface, creating a different look and/or including differentfunctions or user options.

Installation of application package 102 onto server computer system 101,in the illustrated embodiment, includes storing computer instructionsand data into a memory workspace assigned to a subscriber that initiatesthe installation. In some embodiments, all program code and dataincluded in application modules 103-106 and application components110-116 is stored in the workspace, providing the subscriber with a copyof files and instructions that implement the one or more applicationsincluded in application package 102. In other embodiments, some or allof application modules 103-106 and application components 110-116 may bekept in a shared memory location where they can be accessed by otherusers, and then data and program code that may be modified by thesubscriber are stored in the memory workspace of the subscriber. In suchan embodiment, application package 102 may specify which applicationmodules 103-106 and/or application components 110-116 are to beretrieved from the shared memory, versus the subscriber's workspace,when an application from application package 102 is executed.

The developer may release an upgraded version of application package 102after revising one or more of application modules 103-106 and/orapplication components 110-116. In some embodiments, the developer mayadd application modules and/or components to application package 102.After an upgrade to application package 102 is made available forinstallation, each subscriber with an installed version of applicationpackage 102 may independently choose to install the upgrade or not. Overtime and multiple released upgrade packages, each subscriber with aninstalled version of application package 102 may have a differentcombination of versions of application modules 103-106 and components110-116 based on their particular upgrade choices. Developers may,therefore, utilize particular techniques to help subscribers upgrade tonewer versions of application package 102. Disclosed in detail below, isan application upgrade technique in which server computer system 101generates a first set of values indicative of respective versions forapplication modules 103-106 included in a currently installedapplication package. Server computer system 101 may also determine asecond set of values indicative of respective versions for applicationmodules included in an upgrade for application package 102. Servercomputer system 101 may compare the first and second sets of values, andthen, based on the comparison, disable or deactivate components 110-116that are not included in the upgrade package.

It is noted that the system of FIG. 1 is merely one example. In otherembodiments, the computer system may include additional applicationpackages. In some embodiments, a different number of application modulesand/or components may be associated with each application package.

Moving to FIG. 2, a computer system with an installed applicationpackage is depicted at two points in time. Server computer system 201 isshown at time A before an upgrade to application package 202 a isinstalled. Server computer system 201 is further illustrated at time Bafter an upgrade to application package 202 b has been installed. Servercomputer system 201 and application packages 202 a and 202 b maycorrespond to the descriptions disclosed above in regards to thesimilarly named and numbered components FIG. 1 except as noted below.

Application package 202 a, in the illustrated embodiment, corresponds toa current version of an application package installed on server computersystem 201. Application package 202 a includes application modules 203a, 204 c, 205 a, and 206 b, as well as components 210-216. Applicationpackage 202 b is an upgrade package for application package 202 a, andincludes application modules 203 a and 204 c, which are a same versionas included in package 202 a. Package 202 b also includes applicationmodule 205 b which may replace application module 205 a in the upgradedpackage. Application module 206 b is excluded from application package202 b. In various embodiments, functionality enabled by applicationmodule 206 b may be obsolete in package 202 b or may be incorporatedinto another application module, such as, for example, applicationmodule 205 b.

As shown at time B, a subscriber has upgraded application package 202from version 202 a to version 202 b. During the installation of package202 b, application module 206 b is removed and application module 205 ais replaced with application module 205 b. Before any applicationmodules are removed or replaced, server computer system 201 generates afirst set of values indicative of a version for each of the applicationmodules specified by the installed application package 202 a. Servercomputer system 201 then determines a second set of values indicative ofa version for each of the application modules specified by the upgradeapplication package 202 b. After application module 206 b has beenremoved and application module 205 b has been installed, server computersystem 201 compares the first and second sets of values to generate achange log which, in the current example, indicates that applicationmodule 205 a is replaced with 205 b, and application module 206 b isremoved. Based on this comparison, server computer system 201 disablesor deactivates application components 213 and 216 that are associatedwith application modules 205 a and 206 a that are not included inpackage 202 b. Server computer system 201 may also, in some embodiments,update or generate a metadata object to store version information forapplication modules and components associated with application package202 b. This metadata object may also be included as part of applicationpackage 202 b.

A component in an upgraded application package that is no longerutilized by any of the current application modules is referred to hereinas an “orphaned” component. These orphaned components may be disabled ordeactivated in various ways, depending, for example, on a type ofinformation included in the “orphaned” components. For example, orphanedcomponents that include programmatic information may be removed, whileorphaned components that include schema information may be deprecated.As used herein, “programmatic” refers to information associated with theexecution of program instructions, while “schema” refers to informationrelated to a plan or scheme for operation of an application. Forexample, an application component that includes data for formatting adisplay of a result of a particular application module may beprogrammatic and therefore unnecessary if the particular applicationmodule is removed from a package upgrade. In contrast, an applicationcomponent that includes data collected by a subscriber and is formattedand presented by the particular application module may be schema andtherefore deprecated, rather than removed, if the particular applicationmodule is removed from the package. In some embodiments, deprecatedschema components may be highlighted after a package upgrade, such thatthe subscriber may review deprecated components and determine if theymay be removed or retained in the subscriber's workspace.

In the illustrated embodiment, application component 213 is associatedwith application modules 205 a and 206 b of package 202 a. In package202 b, however, component 213 is not associated with application module205 b, or the other application modules, and is therefore removed.Application component 213 includes programmatic data or metadata, suchas, e.g., data generated by the developer of application package 202 aor generated by application modules 205 a or 206 b, and therefore, maynot be used by application module 205 b. Application component 216 isassociated only with application module 206 b in package 202 a, and isnot associated with any application module in package 202 b. Applicationcomponent 216, however, contains schema data or metadata, such as, forexample, user generated data (e.g., a particular data table, or tableformat, a particular user interface, or similar data or metadata).Rather than remove this user generated data, application component 216is deprecated. For example, an indication that application component 216is not utilized by the upgraded application package 202 b may be addedto metadata associated with application component 216. A dotted line isillustrated to show that data in application component 216 may beaccessible through application module 205 b. In other embodiments,application component 216 may not be accessible using applicationpackage 202 b, but instead be accessible through another application.

It is noted that the embodiment of FIG. 2 is an example fordemonstrating the disclosed concepts. In other embodiments, a servercomputer system may include any number of application packages, which,in turn, may include any suitable number of application modules andapplication components. Although not shown in FIG. 2, a package upgrademay increase a number of application modules and/or applicationcomponents.

Turning now to FIG. 3, several tables that may correspond to anapplication package upgrade technique are illustrated. In theillustrated embodiment, these three tables correspond to the packageupgrade shown in FIG. 2, from application package 202 a to 202 b.Version set 301 corresponds to the first set of values indicative of theversion for each of the application modules specified by the installedapplication package 202 a. Version set 302, similarly, corresponds tothe second set of values indicative of the version for each of theapplication modules specified by the installed application package 202b. As shown, each of version sets 301 and 302 includes four columns: onefor a package identifier, one for a list of application modules includedin the identified package, one for a revision indication of therespective application module, and one to identify applicationcomponents used by the respective application module. The third tablecorresponds to change log 303 that includes entries for differencesbetween version set 301 and version set 302. Change log 303 alsoincludes four columns: one to identify an application module with aversion change, one to indicate the installed (i.e. application package202 a) version of the module, one to indicate the upgrade (i.e.application package 202 b) version of the module, and one to identifyorphaned components that may be disabled.

Referring back to FIG. 2, server computer system 201 may generate themodule list in version set 301 in any suitable manner. For example,server computer system 201 may search for application module referenceswithin a metadata object associated with application package 202 a,and/or within computer code in application package 202 a. Similarly,application module version identifiers may be included in respectivemetadata associated with each application module, or may be included ina reference or comment embedded within computer code of the applicationmodule. In some embodiments, the version indicator may be included inthe application package as part of the reference to the applicationmodule. Likewise, server computer system 201 may determine thecomponents used by each included application module using similarmethods. It is noted that version set 301 may not be generated untilserver computer system 201 receives an indication that applicationpackage 202 a is to be upgraded. By waiting until an upgrade isdetected, version set 301 may include the most recent versioninformation without server computer system 201 maintaining an ongoingversion log.

In some embodiments, server computer system 201 may generate version set302 in a similar manner as version set 301. In the illustratedembodiment, server computer system 201 may retrieve information togenerate version set 302 from package installation instructions, packagerelease notes, or other documentation or metadata associated withapplication package 202 b. For example, application package 202 b mayhave an associated metadata object that identifies application modules,application components, and respective versions to be installed orlinked to as part of an installation process. This metadata object maybe used by an installation program executing on server computer system201 when installing application package 202 b in a subscriber'sworkspace.

After generating both version sets 301 and 302, server computer system201 compares the two tables to determine differences between theinstalled package and the upcoming upgrade package. As shown, servercomputer system 201 generates change log 303, with entries that identifyapplication modules that are being modified. The version for applicationmodule 205 is changed from “A” to “B” from version set 301 to 302,thereby causing an entry for module 205 with the respective versionindicators included. In version set 301, the module 205 entry liststhree used components (212, 213, and 215), while in version set 302, themodule 205 entry list only two used components (212 and 215), therebyindicating that application component 213 is not used in applicationpackage 202 b, and therefore, identified as an orphaned component.Version set 302 does not include a version for application module 206,while version set 301 indicates version “B” is used. An entry for module206 is added to change log 303 with the installed package versionidentified and the upgrade package version indicated as “removed.”Orphaned components associated with application module 206 and not usedby other application modules in the upgrade package are identified ascomponents 213 and 216.

Server computer system 201 may use change log 303 to install upgradedapplication module 205 b and to disable the orphaned applicationcomponents 213 and 216. In some embodiments, some or all of the threetables may be saved, for example, in the subscriber's workspace as partof a revision history for application package 202. In other embodiments,the data in the tables may be generated in volatile memory and discardedonce the upgrade to application package 202 b has completed. Change log303, in some embodiments, may not be generated in a tabular format, andinstead, server computer system 201 may perform the appropriate actionsdirectly from comparisons of version sets 301 and 302.

It is noted that the tables of FIG. 3 are example embodiments. Theillustrated tables provide one technique for identifying applicationmodule versions and comparing versions to an application packageupgrade. In other embodiments, the tables may include more or lessinformation. For example, in some embodiments, the components usedcolumn may be omitted.

Moving now to FIG. 4, a flow diagram illustrating an embodiment of amethod for upgrading an application package such as described above.Method 400 may be implemented by a computer system, such as, forexample, server computer systems 101 and 201 in FIGS. 1 and 2. Method400, in the illustrated embodiment, may be performed to upgradeapplication package 202 a, currently installed in a subscriber'sworkspace, to application package 202 b. In some embodiments, method 400may be performed multiple times on server computer system 201 to upgradea different version of the application package 202, installed on adifferent subscriber's workspace, to application package 202 b.Referring collectively to FIGS. 2 and 4, method 400 begins in block 401.

A server computer system operates a platform for executing one or moreapplication modules that utilize one or more application components toimplement an application (block 402). In various embodiments, servercomputer system 201 operates a platform for executing one or moreapplications that are part of an application package. In the illustratedembodiment, server computer system 201 corresponds to an Internetconnected system of one or more server computers capable of hostingcloud-based application development and execution platforms, such as,for example, the Force.com multitenant architecture. As used herein,“platform” refers to computer code that, when executed on a computersystem, provides an environment for executing applications. Theapplications may be performed by executing one or more applicationmodules that include computer code, such as, e.g., application modules203 a, 204 c, 205 a, and 206 b.

The server computer system generates a first set of values indicative ofversions of a first set of application modules specified by anapplication package stored on the server computer system forimplementing the application (block 403). In the illustrated embodiment,server computer system 201 generates a first set of values, each valueindicating a respective version of application modules 203 a, 204 c, 205a, and 206 b. In some embodiments, the first set of values may beincluded in a table such as version set 301 in FIG. 3. Server computersystem 201, in the illustrated embodiment, generates the first set ofvalues in response to installing an upgrade to application package 202a. As disclosed above, server computer system 201 may obtain the versionindications from various sources, including, for example, from metadataobjects associated each of the specified application modules.

The server computer system determines a second set of values indicativeof versions of a second set of application modules specified by anupdated application package for an upgrade of the application (block404). Server computer system 201 generates, in the illustratedembodiment, a second set of values, each value indicating a respectiveversion of a module specified by the upgrade, application package 202 b,including application modules 203 a, 204 c, and 205 b. In someembodiments, the second set of values may be included in a table such asversion set 302 in FIG. 3. Server computer system 201, in someembodiments, may obtain the version indications for the second set ofvalues from various sources, including, for example, from informationrelated to the installation of application package 202 b.

Further operations of method 400 may depend on an association between anapplication component and an application module (block 405). In theillustrated embodiment, server computer system 201 compares the firstand second sets of values to identify application modules that aremodified or removed when upgrading from application package 202 a toapplication package 202 b. Server computer system 201 may alsoidentifies application components that are orphaned due to changes inthe application modules resulting from the upgrade. For example, in oneembodiment, server computer system 201 may generate change log 303, asshown in FIG. 3. For each application component utilized in applicationpackage 202 a, a determination is made if the application component isorphaned. If the application component is orphaned, then the methodmoves to block 406 to disable it. Otherwise, the method ends in block407.

Based on the comparison, the server computer system disables applicationcomponents associated with application modules specified in the first,but not the second, set of values (block 406). The orphaned applicationcomponents are not utilized in the upgraded application package 202 b.Server computer system 201, therefore, disables these orphanedcomponents. In various embodiments, orphaned components may be deletedfrom a workspace where application package 202 b is installed, or may bedeprecated (or otherwise marked by a particular data value to indicateit is no longer utilized). In some embodiments, orphaned components maybe placed into two or more groups or sets. How an orphaned component isdisabled, in such an embodiment, depends on which group the component isplaced. The method ends in block 407.

It is noted that method 400 is merely an embodiment for demonstrating adisclosed technique. In other embodiments, a different number ofoperations may be included. In some embodiments, operations may beperformed in a different order, and in some cases, in parallel.

As stated above, in some embodiments, orphaned components may be placedinto two or more groups or sets. An embodiment of a method for disablingorphaned components is illustrated in FIG. 5. Method 500, like method400 in FIG. 4, may be performed by a computer system, such as, forexample, server computer systems 101 and 201 in FIGS. 1 and 2,respectively. The operations of method 500, in some embodiments, maycorrespond to operations included in block 406 of method 400. Method 500begins in block 501 with orphaned components having been identified byserver computer system 201.

A server computer system assigns each orphaned application componentinto one of a plurality of sets (block 502). Server computer system 201assigns each identified orphaned component into one of a plurality ofsets. For example, in the illustrated embodiment, the orphanedcomponents may be assigned to one of two sets. The first set includesorphaned components that include programmatic information, while thesecond set includes orphaned components that include schema information.

Subsequent operations of method 500 may depend on which set of orphanedcomponents an application component is placed (block 503). For eachorphaned component, server computer system 201 determines to which ofthe plurality of sets the current orphaned component is assigned. If thecurrent orphaned component is assigned to the first set, then the methodmoves to block 504 to remove the component. Otherwise, the method movesto block 505 to indicate the component is no longer utilized.

The server computer system removes the first set of the applicationcomponents from an associated workspace (block 504). In the illustratedembodiment, orphaned components in the first set are removed from aworkspace on server computer system 201 onto which the upgradedapplication package 202 b is installed. These orphaned components mayinclude programmatic information or information that was used forprogram control or flow. Such data may have been generated by adeveloper of application package 202 a and may have no value to a userof application package 202 b. The application components of the firstset, therefore, may be removed from the user's workspace with little tono impact to the operation of application package 202 b.

The server computer system indicates that the second set of theapplication components are no longer utilized in the associatedworkspace, without removing the second set of application components(block 505). Orphaned components included in the second set may includeschema information as well as other information that may include datacollected or prepared by the user. Although not utilized by theapplication modules specified by the newly installed application package202 b, the user may desire to modify one or more application componentsthat are utilized by the specified application modules to include someor all of the information included in the second set of orphanedcomponents. Server computer system 201, therefore, adds or sets a datavalue into the components of the second set to indicate that theseorphaned components are not utilized in the user's current workspace.The information contained in the second set of orphaned components is,however, retained, and after the installation of application package 202b has completed, the user may review the indicated applicationcomponents and determine if the information contained therein should befurther retained, or otherwise removed. The method ends in block 506.

It is noted that method 500 of FIG. 5 is one example. In otherembodiments, operations may be performed in a different order. In someembodiments, a different number of operations may be included.

The above discussions have presented various embodiments for installingan upgraded application package onto a computer system. Furtherdiscussions below feature embodiments for generating applicationpackages that are built to run on different execution engines. As usedherein, an “execution engine” refers to program code that, whenexecuting on a computing system, enables applications written in aparticular programming language to execute. Some examples of executionengines include Java, XML, and Apex engines. Multiple execution enginesmay be installed on a single computer system such that applicationpackages installed on the computer system, or in one workspace of thecomputer system, may include computer code for any installed executionengine.

An application developer may generate an application package specifyingone or more application modules that utilize computer code for a firstexecution engine that is included in a cloud-based platform hosted on aserver computer system that supports a plurality of workspaces. One ormore subscribers to the cloud-based platform may install the developer'sapplication package. In some cases, a subscriber may modify portions ofthe application and/or install additional application packages thatutilize features of the developer's application package. At some pointin time, the developer may desire to migrate their application packageto a second execution engine. For example, an entity that manages theserver computer system may install the second execution engine withinthe cloud-based platform to enable new features, improve performance ofapplications, and/or reduce application development time for developers.In some embodiments, the first execution engine may correspond to afirst execution environment, while the second execution enginecorresponds to a second execution environment.

If the developer has multiple subscribers using their application, thenmigration of these customers to the new version of the applicationpackage may be problematic. A first subscriber who has significantdevelopment around the application package (e.g., modifications,additional application packages) may be reluctant to migrate to the newpackage in the second execution environment, while a second subscribermay not have additional development around their version of theapplication package and, therefore, be willing to migrate to the secondexecution environment sooner than the first subscriber. Such a scenariomay result in the developer supporting two versions of source code fortheir application package until all subscribers can be migrated to thenew version.

Various embodiments are presented below that may enable an applicationdeveloper to support an application package for two or more executionengines without having to maintain two versions of source code. Thedisclosed embodiments, may also allow for the application package toprovide similar functionality via use of any of the two or moreexecution engines.

An example of a server computer system with multiple execution enginesis shown in FIG. 6. Server computer system 601 operates a platform forexecuting builder application 607 and execution engines 605 and 606. Adeveloper of application packages may utilize builder application 607 tobuild application packages 603 and 604 from source code 602.

Server computer system 601 may correspond to any suitable type ofcomputer system onto which multiple execution engines may be installed.In the illustrated embodiment, server computer system 601 corresponds toan Internet connected system of one or more server computers capable ofhosting cloud-based application development and execution platforms,such as, for example, the Force.com multitenant architecture. Anapplication developer may utilize server computer system 601 to develop,build, and execute application packages 603 and 604 using source code602. In some embodiments, application packages 603 and 604 may includevarious application modules and application components, such asdescribed above for application package 102.

Builder application 607, in the illustrated embodiment, includescomputer code that when executed on server computer system 601, iscapable of generating, from source code 602, application package 603capable of running on execution engine 605. To build application package603, and its associated application modules and components, builderapplication 607 may perform any suitable combination of operations onsource code 602 including, but not limited to, one or more of: linkingone or more files specified by source code 602, generating one or moremetadata objects that control a workflow, identifying errors in programcode, compiling error-checked code, assembling compiled code intomachine language code, and the like. In various embodiments, source code602 may include any suitable combination of text files that include oneor more lines of program code, data, and/or metadata, as well as filesthat include pre-compiled program code in a binary format (e.g.,compiled library functions). It is noted that, as used in reference toFIGS. 6 and 7, building an application package may include building someor all of application modules and components specified by theapplication package.

Builder application 607 is also capable of generating applicationpackage 604, using application 603 as source code, such that applicationpackage 604 is capable of running on execution engine 606. To generateapplication package 604, builder application 607 may perform, onapplication package 603, any combination of operations just describedfor building application package 603. In addition, builder application607 may determine a particular programming language used in the buildingof application package 603 and translate program code written in thislanguage to a different programming language as part of the build ofapplication package 604. For example, during the build of applicationpackage 603, one or more application modules may be built that includeXML, code. As part of a build of application package 604, this XML, codemay be translated into a different programming language, such as, forexample, Apex code.

After the respective builds, application package 603 may be executed onexecution engine 605, while application package 604 may be executed onexecution engine 606. In the illustrated embodiment, however,application package 603 may not be executed on execution engine 606, andvice versa. Since application package 604 is generated from applicationpackage 603, both packages may be capable of performing the sameoperations. In some embodiments, however, application package 603 mayinclude a feature that is not supported by application package 604, orapplication package 604 may include a feature that is implementeddifferently from application package 603.

In the illustrated embodiment, the functionality of each applicationpackage may be similar enough that a subscriber, or other user,migrating from application package 603 may be able to utilizeapplication package 604 with little to no disruptions. The developer,therefore, may be able to migrate a selected subset of users ofapplication package 603 to application package 604, while stillsupporting the unselected subset of users with application package 603.If a change is to be made to either package 603 or 604, the developermay make the change in source code 602 and then re-build bothapplication packages 603 and 604 starting with the changed source code602.

It is noted that FIG. 6 is merely one example. In other embodiments, thecomputer system may include additional execution engines. Although asingle block is illustrated for source code 602, any number of files maybe included.

Moving to FIG. 7, a flow diagram for a method for building applicationpackages for different execution engines is shown. Method 700 may beperformed by a computer system, such as, for example, server computersystem 601 in FIG. 6. It is noted that the operations of method 700 maybe combined with the operations of methods 400 and 500, in FIGS. 4 and5, respectively, to provide a method for building and installing anapplication package in a user's workspace. Referring collectively toFIG. 6 and the flow diagram of FIG. 7, the method begins in block 701.

A server computer system operates a platform for executing a builderapplication, a first execution engine, and a second, different executionengine (block 702). In the illustrated embodiment, server computersystem 601 operates a cloud-based application development and executionplatform, such as, e.g., the Force.com multitenant architecture, thatenables execution of builder application 607, execution engine 605 andexecution engine 606. In some embodiments, access to builder application607 may be limited to an application development workspace, whileexecution engines 605 and 606 may be accessible from any suitableworkspace supported on server computer system 601.

The builder application generates a first application package usingsource code accessible to the server computer system (block 703). Anapplication developer builds application package 603 using builderapplication 607. As shown, builder application 607 receives source code602 as input and generates application package 603, including buildingone or more application modules and/or components specified byapplication package 603. Some or all of application package 603 and itsassociated modules and components may include computer code written in afirst programming language.

The server computer system executes the first application package on theplatform using the first execution engine (block 704). After applicationpackage 603 has been built, the developer, or another user, may causeserver computer system 601 to launch and execute application package 603using execution engine 605. It is noted that execution engine 606 maynot be capable of executing code included in application package 603 orits associated modules and components.

The builder application generates a second application package from thefirst application package (block 705). In the illustrated embodiment,the application developer builds application package 604 using builderapplication 607. Builder application 607 receives application package604 as input for generating application package 603. Using applicationpackage 603 and one or more application modules or components specifiedby application package 603, builder application 607 generatesapplication package 604, including building one or more applicationmodules and/or components specified by application package 604. Some orall of application package 604 and its associated modules and componentsmay include computer code written in a second programming language,different from the first programming language.

The server computer system executes the second application package onthe platform using the second execution engine (block 706). Similar toapplication package 603, the developer or another user may cause servercomputer system 601 to launch and execute application package 604 usingexecution engine 606. It is noted that execution engine 605 may not becapable of executing code included in application package 604 or itsassociated modules and components.

It is noted that method 700 is one embodiment for demonstratingdisclosed concepts. In other embodiments, a different number ofoperations may be included. In some embodiments, operations may beperformed in a different order, and in some cases, in parallel.

A developer may build application packages 603 and 604 in order tomigrate subscribers that are ready to migrate to applications thatutilize execution engine 606, while also supporting customers that mightface difficulty and/or expense to migrate to application utilizingexecution engine 606. A particular fix or update may be made to bothpackages 603 and 604 by editing just source code 602, therebyeliminating a need for the developer to maintain and edit separatesource code for each of the application packages.

An example of a possible embodiment of a server computer system, such asserver computer systems 101, 201, and 601, is presented below in FIG. 8.FIG. 8 illustrates an exemplary environment in which a multitenantdatabase system might be implemented. Note that the disclosedmultitenant system is included for illustrative purposes, but is notintended to limit the scope of the present disclosure. In otherembodiments, similar techniques may be implemented in non-multitenantenvironments such as various client/server environments, cloud computingenvironments, clustered computers, etc. As illustrated in FIG. 8 one ormore user systems 812 may interact via a network 14 with a multitenantdatabase system (MTS) 816. The users of those user systems 812 may beusers in differing capacities and the capacity of a particular usersystem 812 might be determined by the current user. For example, when asalesperson is using a particular user system 812 to interact with MTS816, that user system 812 may have the capacities allotted to thatsalesperson. However, while an administrator is using the same usersystem 812 to interact with MTS 816, it has the capacities allotted tothat administrator.

Network 814 may be a LAN (local area network), WAN (wide area network),wireless network, point-to-point network, star network, token ringnetwork, hub network, or any other appropriate configuration. The globalinternetwork of networks, often referred to as the “Internet” with acapital “I,” is used in many of the examples herein and is one exampleof a TCP/IP (Transfer Control Protocol and Internet Protocol) network.It should be understood, however, that the networks that the disclosedembodiments may utilize any of various other types of networks.

User systems 812 may communicate with MTS 816 using TCP/IP and, at ahigher network level, use other common Internet protocols tocommunicate, such as HTTP, FTP, AFS, WAP, etc. As an example, where HTTPis used, user system 812 might include an HTTP client commonly referredto as a “browser” for sending and receiving HTTP messages from an HTTPserver at MTS 816. Such a server might be implemented as the solenetwork interface between MTS 816 and network 814, but other techniquesmight be used as well or instead. In some implementations, the interfacebetween MTS 816 and network 814 includes load sharing functionality,such as round-robin HTTP request distributors to balance loads anddistribute incoming HTTP requests evenly over a plurality of servers.Preferably, each of the plurality of servers has access to the MTS'sdata, at least for the users that are accessing a server.

In some embodiments, the system shown in FIG. 8 implements a web-basedcustomer relationship management (CRM) system. For example, in someembodiments, MTS 816 includes application servers configured toimplement and execute CRM software applications as well as providerelated data, code, forms, web pages and other information to and fromuser systems 812 and to store to, and retrieve from, a database systemrelated data, objects and web page content. In embodiments of amultitenant system, tenant data is preferably arranged so that data ofone tenant is kept separate from that of other tenants so that that onetenant does not have access to another tenant's data, unless such datais expressly shared.

One arrangement for elements of MTS 816 is shown in FIG. 8, including anetwork interface 820, storage 822 for tenant data, storage 824 forsystem data accessible to MTS 816 and possibly multiple tenants, programcode 826 for implementing various functions of MTS 816, and a processspace 828 for executing MTS system processes and tenant-specificprocesses, such as running applications as part of an applicationservice.

Several elements in the system shown in FIG. 8 may include conventional,well-known elements that need not be explained in detail here. Forexample, each user system 812 may be a desktop personal computer,workstation, laptop, PDA, cell phone, or any WAP-enabled device or anyother computing device capable of interfacing directly or indirectly tothe Internet or other network connection. User system 812 may execute anHTTP client, e.g., a browsing program, such as Microsoft's InternetExplorer™ or Edge browsers, Mozilla's Firefox™ browser, Google'sChromeTM browser, Opera Software's Opera browser, or a WAP-enabledbrowser in the case of a cell phone, PDA or other wireless device, orthe like, allowing a user (e.g., subscriber of a CRM system) of usersystem 812 to access, process, and view information and pages availableto it from MTS 816 over network 814. Each user system 812 may includeone or more user interface devices, such as a keyboard, a mouse, touchscreen, pen or the like, for interacting with a graphical user interface(GUI) provided by the browser on a display monitor screen, LCD display,etc. in conjunction with pages, forms and other information provided byMTS 816 or other systems or servers. As discussed above, disclosedembodiments are suitable for use with the Internet, which refers to aspecific global internetwork of networks. It should be understood,however, that other networks may be used instead of the Internet, suchas an intranet, an extranet, a virtual private network (VPN), anon-TCP/IP based network, any LAN or WAN or the like.

In some embodiments, each user system 812 and its components areoperator configurable using applications, such as a browser, thatinclude computer code executable on one or more processing elements.Similarly, in some embodiments, MTS 816 (and additional instances ofMTSs, where more than one is present) and their components are operatorconfigurable using application(s) that include computer code executableon one or more processing elements. Thus, various operations describedherein may be performed by executing program instructions stored on anon-transitory computer-readable medium and executed by one or moreprocessing elements. The program instructions may be stored on anon-volatile medium such as a hard disk, or may be stored in any othervolatile or non-volatile memory medium or device as is well known, suchas a ROM or RAM, or provided on any media capable of staring programcode, such as a compact disk (CD) medium, digital versatile disk (DVD)medium, a floppy disk, and the like. Additionally, the entire programcode, or portions thereof, may be transmitted and downloaded from asoftware source, e.g., over the Internet, or from another server, as iswell known, or transmitted over any other conventional networkconnection as is well known (e.g., extranet, VPN, LAN, etc.) using anycommunication medium and protocols (e.g., TCP/IP, HTTP, HTTPS, Ethernet,etc.) as are well known. It will also be appreciated that computer codefor implementing aspects of the disclosed embodiments can be implementedin any programming language that can be executed on a server or serversystem such as, for example, in C, C+, HTML, Java, JavaScript, or anyother scripting language, such as VBScript.

According to some embodiments, each MTS 816 is configured to provide webpages, forms, applications, data, and/or media content to user systems812 to support the access by user systems 812 as tenants of MTS 816. Assuch, in this embodiment, MTS 816 provides security mechanisms to keepeach tenant's data separate unless the data is shared. If more than oneMTS is used, they may be located in close proximity to one another(e.g., in a server farm located in a single building or campus), or theymay be distributed at locations remote from one another (e.g., one ormore servers located in city A and one or more servers located in cityB). As used herein, MTSs may include one or more logically and/orphysically connected servers distributed locally or across one or moregeographic locations. Additionally, the term “server” includes acomputer system, including processing hardware and process space(s), andan associated storage system and database application as is well knownin the art. It should also be understood that “server system” and“server” are often used interchangeably herein. Similarly, the databasesdescribed herein can be implemented as single databases, a distributeddatabase, a collection of distributed databases, a database withredundant online or offline backups or other redundancies, etc., andmight include a distributed database or storage network and associatedprocessing intelligence.

Although specific embodiments have been described above, theseembodiments are not intended to limit the scope of the presentdisclosure, even where only a single embodiment is described withrespect to a particular feature. Examples of features provided in thedisclosure are intended to be illustrative rather than restrictiveunless stated otherwise. The above description is intended to cover suchalternatives, modifications, and equivalents as would be apparent to aperson skilled in the art having the benefit of this disclosure.

Various operations described herein may be implemented by a computingdevice configured to execute program instructions that specify theoperations. Similarly, various operations may be performed by circuitrydesired or configured to perform the operations. In some embodiments, anon-transitory computer-readable medium has program instructions storedthereon that are capable of causing various operations described herein.As used herein, the term “processing element” refers to various elementsor combinations of elements configured to execute program instructions.Processing elements include, for example, circuits such as an ASIC(Application Specific Integrated Circuit), portions or circuits ofindividual processor cores, entire processor cores, individualprocessors, programmable hardware devices such as a field programmablegate array (FPGA), and/or larger portions of systems that includemultiple processors, as well as any combinations thereof.

The scope of the present disclosure includes any feature or combinationof features disclosed herein (either explicitly or implicitly), or anygeneralization thereof, whether or not it mitigates any or all of theproblems addressed herein. Accordingly, new claims may be formulatedduring prosecution of this application (or an application claimingpriority thereto) to any such combination of features. In particular,with reference to the appended claims, features from dependent claimsmay be combined with those of the independent claims and features fromrespective independent claims may be combined in any appropriate mannerand not merely in the specific combinations enumerated in the appendedclaims.

1. A method, comprising: operating, by a server computer system, aplatform for executing one or more application modules that utilize oneor more application components to implement an application, wherein theserver computer system stores an application package for implementingthe application and an updated application package for an upgrade of theapplication; generating, by the server computer system after determiningto install the updated application package, a first set of valuesindicative of versions of a first set of application modules specifiedby the application package; determining, by the server computer system,a second set of values indicative of versions of a second set ofapplication modules specified by an updated application package for anupgrade of the application; and disabling, by the server computersystem, application components associated with application modulesspecified in the first, but not the second, set of values.
 2. The methodof claim 1, further comprising: prior to determining to install theupdated application package, executing the application on the servercomputer system; and after installing the updated application package,executing the updated application on the server computer system.
 3. Themethod of claim 1, wherein the disabling includes: removing a first setof the application components from an associated workspace; andindicating that a second set of the application components are no longerutilized in the associated workspace, without removing the second set ofthe application components.
 4. The method of claim 3, wherein the firstset of the application components are programmatic components, andwherein the second set of the application components are schemacomponents.
 5. The method of claim 3, further comprising removing one ormore of the second set of the application components in response to aninput from a user of the updated application package.
 6. The method ofclaim 1, wherein a given one of the one or more application modulesutilizes a given one of the one or more application components to formata display of data read from the server computer system.
 7. The method ofclaim 1, wherein the platform is executable on the server computersystem to provide a plurality of workspaces that permit different usersto have different versions of application modules currently specified inrespective application packages for a same application.
 8. The method ofclaim 7, further comprising installing the updated application packageinto a different workspace with a different version of the applicationpackage currently installed.
 9. A non-transitory computer-readablemedium having computer instructions stored thereon that are capable ofbeing executed by a server computer system to cause operationscomprising: operating a platform for executing one or more applicationmodules that utilize one or more application components to implement anapplication; storing, on the server computer system, an applicationpackage for implementing the application and an updated applicationpackage for an upgrade of the application; generating, after determiningto install the updated application package, a first set of valuesindicative of versions of a first set of application modules specifiedby the application package; determining a second set of valuesindicative of versions of a second set of application modules specifiedby the updated application package; and disabling application componentsassociated with application modules specified in the first, but not thesecond, set of values.
 10. The non-transitory computer-readable mediumof claim 9, wherein the operations further comprise prior to determiningto install the updated application package, executing the application onthe server computer system; and after installing the updated applicationpackage, executing the updated application on the server computersystem.
 11. The non-transitory computer-readable medium of claim 9,wherein to disable the application components, the operations furthercomprise: removing a first set of the application components from anassociated workspace; and indicating that a second set of theapplication components is no longer active in the associated workspace,without removing the second set of the application components.
 12. Thenon-transitory computer-readable medium of claim 11, wherein to disablethe application components, the operations further comprise assigningprogrammatic components to the first set of the application components,and assigning schema components to the second set of the applicationcomponents.
 13. The non-transitory computer-readable medium of claim 9,wherein the operations further comprise storing respective valuesindicative of the version of the second set of application modules intoa particular metadata object associated with the updated applicationpackage.
 14. The non-transitory computer-readable medium of claim 13,wherein to generate the first set of values, the operations furthercomprise reading the respective values from metadata objectscorresponding to application modules of the first set of applicationmodules.
 15. A method, comprising: operating, by a server computersystem, a platform for executing a builder application, a firstexecution engine, and a second, different execution engine; generating,by the builder application, a first application package using sourcecode accessible to the server computer system; executing the firstapplication package on the platform using the first execution engine;generating, by the builder application, a second application packagefrom the first application package; and executing the second applicationpackage on the platform using the second execution engine.
 16. Themethod of claim 15, wherein the first application package is notexecutable on the platform using the second execution engine, and thesecond application package is not executable on the platform using thefirst execution engine.
 17. The method of claim 16, wherein generatingthe second application package from the first application package isperformed to migrate a subset of users operating in a first executionenvironment to a second, updated execution environment, wherein thefirst and second execution engines correspond to the first and secondexecution environments, respectively.
 18. The method of claim 17,wherein the first and second application packages operate on data in amultitenant database system.
 19. The method of claim 15, wherein thefirst and second application packages specify respective sets ofapplication modules, which, when executed, utilize respective sets ofapplication components.
 20. The method of claim 19, further comprising:in response to upgrading from the first application package to thesecond application package, generating, by the server computer system, afirst set of values indicative of versions of a first set of applicationmodules specified by the first application package; determining, by theserver computer system, a second set of values indicative of versions ofa second set of application modules specified by the second applicationpackage; and disabling, by the server computer system, applicationcomponents associated with application modules specified in the first,but not the second, set of values.